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IMDEA Energy is participating in the 15th Mediterranean Congress of Chemical Engineering
IMDEA Energy presents the main findings from the organic loading rate shock experiment conducted within the PRODIGIO project.
IDConsortium
IMDEA Energy participated in the 15th Mediterranean Congress of Chemical Engineering (XV-MECCE) in Barcelona, Spain, presenting key findings from the organic loading rate shock experiment conducted in the PRODIGIO project.
Silvia Greses, the main contributor to the article, presented the results, and you can read the full article here:
S. Greses, J.M. Walter, P.B. Pope, L.H. Hagen, M.Ø. Arntzen and C. González-Fernández. Warning indicators of microalgae anaerobic digestion instability upon system overloading. 15th Mediterranean Congress of Chemical Engineering (XV-MECCE) (Barcelona, Spain). 30 May – 02 June, 2023. International (ORAL). 10.48158/MeCCE-15.T3-O-04
IMDEA Energy also coordinates the YAF (Yeast-based solutions for sustainable Aviation Fuels) Project as part of the ‘Horizon-Marie Skłodowska-Curie Actions Doctoral Networks.’ YAF aims to train the next generation of researchers in a highly interdisciplinary and intersectoral research environment to address upcoming challenges related to yeast-based Sustainable Aviation Fuels (SAF) production. The research program includes the production of carbon sources from biowastes via modified anaerobic digestion.
More news about this project:
NTU scientist develops a novel method
An international team investigate the link between time-varying interaction networks and community stability in natural systems.
Dynamic modeling for the life cycle sustainability assessment of microalgal bioenergy
The performance of PRODIGIO developments should be evaluated according to environmental economic and social criteria to ensure the improvement capacity of early-warning systems compared to systems without such technology.
Forensic chemical fingerprinting of bioreactor performance
Within PRODIGIO, we use chemical information to detect early-stage changes in the biological processes and prospective failure of the PRODIGIO bioreactors.